To Calculate Capacitors capacitance, Formulae are as under: Xc= 1/(2*3.142857*fC) Xc=(Kv²)* 1000/Kvar C=(Kvar*1000)/((2*3.142857*f)*(Kv²)) Kvar=1000*(Kv²)/Xc Where f = Frequency C = Capacitance Xc = Capacitive reactance Kvar = Kilo Reactive Power Kv = Kilo volts Reply...
Amp to Watt conversion: Learn how to calculate watts from volts and amps in both DC and AC circuits. Understand the impact of power factor & reactance on the calculation.
The electrical circuit model described in the previous section can be used to calculate the E-Field in the culture medium for a cylindrical geometry and a sinusoidal applied voltage. The described equations can be easily implemented in Excel, Matlab or Python, for example. When the waveform is ...
The spatial distribution of impedance in your ground plane is also important, particularly in mixed-signal devices. Signals will follow the path of least reactance back to the ground return when traveling in the ground plane. Ideally, the path of least reactance in a star, point-to-poin...
The receive channel measures the corresponding voltage with high precision thanks to the high input impedance, high common-mode rejection ratio (CMRR), and low noise. While the AD5940 integrates a DFT hardware accelerator to calculate the real and imaginary parts of the impedance from the digital...
If now the frequency of the source is changed to ω/3 (but maintaining the same voltage), the current in the circuit is found to be halved. calculate the ratio of reactance to resistance at the original frequency ω. View Solution A box P and a coil Q are connected in series with an...
How does inductive reactance.XLof an inductor vary in d.c.and high frequency a.c. circuit ? View Solution How does capacitive reactance vary with frequency ? View Solution Exams IIT JEE NEET UP Board Bihar Board CBSE Free Textbook Solutions ...
Answer to: How do you calculate the total resistance of a parallel circuit? By signing up, you'll get thousands of step-by-step solutions to your...
Measuring the anode current takes a bit more math. No calculus though, just ohm's law. Before we calculate anything though, let's set some variables. The meter is 100uA full scale deflection, and we'd like to make it 3mA. Looks like we'll need a resistor!
Based on the total power losses value (Pbridge) and based on the maximum acceptable bridge-diode's junction temperature target (e.g. Tj_bridge,max=125 °C), it is possible to calculate the maximum thermal resistance of the heatsink required to keep the bridge-diode...